Investigation of the Effect of Design Parameters of Small Brushless DC Motors on Motor Performance by Finite Element Method

Investigation of the Effect of Design Parameters of Small Brushless DC Motors on Motor Performance by Finite Element Method

Journal of Brilliant Engineering (BEN)
Volume 3 - Issue 3 - July 2022

Yıldırım ÖZÜPAK

Abstract

Direct Current (DC) motors are widely used in industrial applications. The limited use of brushed models in some areas has brought Brushless Direct Current Motors (BLDC) to the fore. The constant need for maintenance of brushed type motors creates a disadvantage in variable conditions and in areas that are used continuously. For this reason, brushless DC motors have a wide range of uses. Brushless DC motors stand out with their high-performance values. Brushless DC motors with outer rotor type are used in applications that require high torque and inertia. The fact that electrical machines have moving parts and the computational complexity created by these parts have led electrical machine designers to alternative ways such as software and simulation programs where the results can be predicted. In this paper, a Brusgless Permanent Magnet Direct Current motor (BLPMDC) was designed and analyzed. The obtained speed, efficiency, torque, and air gap flux distributions were examined and the results were compared with literature for the motor type. In this study, applications were made to examine the effects of design parameters such as rotor structure, rotor position, magnet arrangement and materials used in the structures on the efficiency and output power of the motor. Efficiency-speed and power-speed values were obtained for different structures and features of the engine. The results obtained are compared with each other and presented in the article in the form of graphs and tables.

Keywords

DC machine, Efficiency, FEM, ANSYS-RMxpert Power.
https://doi.org/10.36937/ben.2022.4658